Difference between revisions of "Tait Liquid Material"
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<math>\tau = \gamma \nabla \mathbf{v}</math> | <math>\tau = \gamma \nabla \mathbf{v}</math> | ||
where <math>\nabla \mathbf{v}< | where <math>\nabla \mathbf{v}</math> is the velocity gradient. The total stress is given by<math> \mathbf{\sigma} = -p \mathbf{I} + \tau</math> | ||
== Material Properties == | == Material Properties == |
Revision as of 17:07, 30 December 2013
Constitutive Law
This MPM material as a hyperelastic material. The pressure in the liquid is found from the Tait equation:
[math]\displaystyle{ V(p,T) = V(0,T)\left[1 - C \ln\left(1+{p\over B(T)}\right)\right] }[/math]
where C = 0.0894 is a universal Tait constant, V(0,T) is the temperature dependence of the volume at zero pressure, and
[math]\displaystyle{ B(T) = { K(0,T)\over C } }[/math]
where K(0,T) is the temperature dependence of the bulk modulus at zero pressure. Defining J as relative volume (i.e., determinant of total deformation gradient) and Jres as determinant of deformation gradient due to free thermal expansion, or:
[math]\displaystyle{ J = {V(p,T)\over V(0,T_0)} \qquad {\rm and} \qquad J_{res} = {V(0,T)\over V(0,T_0)} = e^{\beta(0)(T-T_0)} }[/math]
where T0 is the stress free temperature and β0 is the zero-pressure thermal expansion coefficient (which has been assumed to be independent of temperature), the constitutive law for pressure is:
[math]\displaystyle{ p = CK_0\left[\exp\left({1\over C}\left(1 - {J\over J_{res}}\right)\right)-1\right] }[/math]
Here the zero-pressure bulk modulus is K0. and it has been assumed to be independent of temperature.
This material assumes a Newtonian fluid, which means that the shear stress is given by
[math]\displaystyle{ \tau = \gamma \nabla \mathbf{v} }[/math]
where [math]\displaystyle{ \nabla \mathbf{v} }[/math] is the velocity gradient. The total stress is given by[math]\displaystyle{ \mathbf{\sigma} = -p \mathbf{I} + \tau }[/math]
Material Properties
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History Variables
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